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For 20,000 years and more the skies of North America darkened Spring and Fall with the migration of from three to five billion birds. They were called passenger pigeons. Deforestation and hunting through the 1800’s changed that. In 1914 the last passenger pigeon died at the Cincinnati Zoo.

The American bison once numbered as high as 30 million. By 1889 humans had reduced their population to about a thousand animals. Fortunately, some humans found reasons to reverse that trend and there now might be as many as half a million bison living on the continent.

We have the ability to destroy the animals, birds, reptiles, and fish with which we share the planet like no other species in history, but we also have the power to stop the destruction, and are now even learning to bring species back.

There have been five mass extinctions on Earth beginning with the end of the Ordovician Era 444 million years ago that saw the end of 86% of all life forms at the time. You’re more likely to think of the last one, the end of the Cretaceous Period 66 million years ago that saw the demise of the dinosaurs. Most of those extinctions have been blamed on sudden climate change, including the asteroid strike that wiped out Dino and his buddies. It takes millions of years for the number of species to reach pre-disaster levels. And, needless to say, those are replacements—the original creatures are gone for good.

The passenger pigeons and the dodo are just two of the 140 bird species, 34 types of amphibian, and at least 77 mammals that scientists say have become extinct since the year 1500, thanks to human activity, especially the destruction of their habitat. Those are the ones we know about. There are still a lot of species, especially insects, reptiles, and amphibians, that have never been classified and could very well be gone before we ever know about them. Some estimates suggest the planet loses hundreds of species a year. And as our powers to shape the environment grow, intentional and not, the rate of extinctions is quickly rising. The International Union for the Conservation of Nature recently predicted that virtually all species currently considered critically endangered and more than two-thirds of endangered species will be gone within the next century. Scientists from Aarhus University in Denmark have calculated that it would take up to 5 million years of evolution to return the planet’s diversity to current levels, and 7 million years to return it to what it was before modern humans showed up and began our path of destruction.

Is there hope? Of course there is. We can curb our out-of-control consumption and stop so much habitat destruction, razing of rainforests, scouring the bottom of the oceans, and spewing plastic and pollution everywhere. Will we? Well, that’s a whole other question.

What about the species already gone, and those it’s likely too late to save? That’s where human technology can actually have a positive side. There are a number of exciting initiatives that point the way to a brighter future.

I’ve mentioned the Svalbard Global Seed Vault in Norway in previous blogs. Built ten years ago to preserve and protect the world’s plant diversity from disaster, it’s reputed to contain a million different varieties now. Seeds evolved to remain dormant when required, so they store pretty well. But what about animals and birds? Projects like the Frozen Ark in Nottingham, UK and the Australian Frozen Zoo in Victoria are working to preserve large collections of frozen DNA from the creatures of the world. That has its challenges certainly. So what if you didn’t have to physically preserve the DNA? For some years now it’s been possible to sequence DNA—transcribe the whole chemical code that determines a species (and an individual’s) cellular makeup. The UK’s Natural History Museum, Royal Botanic Gardens and Wellcome Sanger Institute have joined together in the Darwin Tree of Life Project to sequence Britain’s 66,000 species of animals, plants, protozoa and fungi. Harvard University and other partners around the world are undertaking similar initiatives in the hope that the genetic codes of one-and-a-half million species will eventually be mapped.

Mind you, all of that is like having the full blueprints of a house without the tools or materials to actually build it. We don’t have the technology to recreate plants or animals from scratch like building a Lego set from the instructions. But one day we will.

In Melbourne, Australia, an American scientist named Ben Novak has been working to recreate passenger pigeons by engineering the DNA of ordinary rock pigeons. A team at Harvard is attempting to produce a woolly mammoth by splicing mammoth DNA into the genome of Asian elephants. The tool they use is called CRISPR-Cas9, a combination of repeating RNA (to use as a guide) and the protein Cas9, which allows scientists to basically “cut and paste” DNA in existing sequences. Inserting DNA from an extinct species into the genome of a genetic relative species is how the fictional dinosaurs were created in Jurassic Park (though if anyone’s trying to do that in real life, they’re not admitting it!)

So with all of these efforts to preserve and some day recreate plants and animals, we could theoretically re-introduce forms of life to our planet after they’re gone, or even take them to a new planet somewhere and reform that world in Earth’s image to some degree. That’s very hopeful. Does it excuse us for causing these extinctions in the first place? Absolutely not!

Surely it would be so much better to get our ravenous impulses under control and actually share our beautiful planet with the other species that belong here just as much as we do.